Add to ORKGA disturbance rejection based control approach, active disturbance rejection control (ADRC), is proposed for hysteretic systems with unknown characteristics. It is an appealing alternative to hysteresis compensation because it does not require a detailed model of hysteresis, by treating the nonlinear hysteresis as a common disturbance and actively rejecting it. The stability characteristic of the ADRC is analyzed. It is shown that, in the face of the inherent dynamic uncertainties, the estimation and closed-loop tracking errors of ADRC are bounded, with their bounds monotonously decreasing with the observer and controller bandwidths, respectively. Simulation results on a typical hysteretic system further demonstrate the effectiveness of the...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
In this thesis, the impact of the disturbance rejecter concept and the enforced plant has been explo...
Hysteresis is a non-linear phenomenon present in many physical systems that is usually undesirable a...
A disturbance rejection based control approach, active disturbance rejection control (ADRC), is prop...
One main contribution of this dissertation is to analyze the stability characteristics of extended s...
Industrial processes are typically nonlinear, time-varying and uncertain, to which active disturbanc...
In this thesis, a controller design methodology to reduce hysteresis is introduced. Rate independent...
The efficacy of proportional, derivative and integral (PID) control for set point regulation and dis...
In this paper, a unique dynamic disturbance decoupling control (DDC) strategy, based on the active d...
This study concerns the resonance problems found in motion control, typically described in a two‐ine...
Hysteresis is a phenomenology commonly encountered in very diverse engineering and science disciplin...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper theoretically investigates the closed-loop performance of active disturbance rejection co...
The hysteresis phenomenon occurs in diverse disciplines ranging from physics to biology, from materi...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
In this thesis, the impact of the disturbance rejecter concept and the enforced plant has been explo...
Hysteresis is a non-linear phenomenon present in many physical systems that is usually undesirable a...
A disturbance rejection based control approach, active disturbance rejection control (ADRC), is prop...
One main contribution of this dissertation is to analyze the stability characteristics of extended s...
Industrial processes are typically nonlinear, time-varying and uncertain, to which active disturbanc...
In this thesis, a controller design methodology to reduce hysteresis is introduced. Rate independent...
The efficacy of proportional, derivative and integral (PID) control for set point regulation and dis...
In this paper, a unique dynamic disturbance decoupling control (DDC) strategy, based on the active d...
This study concerns the resonance problems found in motion control, typically described in a two‐ine...
Hysteresis is a phenomenology commonly encountered in very diverse engineering and science disciplin...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper theoretically investigates the closed-loop performance of active disturbance rejection co...
The hysteresis phenomenon occurs in diverse disciplines ranging from physics to biology, from materi...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
In this thesis, the impact of the disturbance rejecter concept and the enforced plant has been explo...
Hysteresis is a non-linear phenomenon present in many physical systems that is usually undesirable a...